This new edition continues to explore the intricate processes of designing, developing, and manufacturing automotive products, by integrating multiple levels of complex systems. It describes systems engineering and attribute engineering, ensuring the new product meets the customer's desired attributes. The book also discusses cascading vehicle-level attribute requirements to all vehicle systems, analyzing interfaces between systems, and developing interface requirements for seamless collaboration.
The second edition of Automotive Product Development: A Systems Engineering Implementation has been meticulously revised to incorporate the most recent innovations in vehicle powertrains, driver interfaces, and state-of-the-art manufacturing techniques. Additionally, it discusses the influence of government regulations on safety, fuel economy, and emissions. This enhanced edition boasts four new chapters, 12 new sections, and updated examples in implementing new technologies, providing a comprehensive overview of the industry's challenges and the array of approaches and tools at engineers' disposal for designing, analyzing, and evaluating products. By mastering these essential steps, engineers can develop products that not only meet but exceed the needs and expectations of their customers.
The ongoing goal of this book is to equip practicing and future engineering graduates in the automotive industry with the essential knowledge needed to understand the product development process and how to implement systems engineering.
Supplemental materials are available to download at Routledge.com/9781032997902
Auflage
Sprache
Verlagsort
Verlagsgruppe
Zielgruppe
Für Beruf und Forschung
Professional Practice & Development
Illustrationen
17 s/w Photographien bzw. Rasterbilder, 90 s/w Zeichnungen, 86 s/w Tabellen, 107 s/w Abbildungen
86 Tables, black and white; 90 Line drawings, black and white; 17 Halftones, black and white; 107 Illustrations, black and white
Maße
Höhe: 234 mm
Breite: 156 mm
ISBN-13
978-1-032-99790-2 (9781032997902)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Klassifikation
Vivek D. Bhise is a LEO lecturer and professor in post-retirement in the Industrial and Manufacturing Systems Engineering Department at the University of Michigan-Dearborn. He received his B.Tech. in Mechanical Engineering (1965) from the Indian Institute of Technology, Bombay, India, M.S. in Industrial Engineering (1966) from the University of California, Berkeley, California, and Ph.D. in Industrial and Systems Engineering (1971) from the Ohio State University, Columbus, Ohio. From 1973 to 2001, he held several management and research positions at the Ford Motor Company in Dearborn, Michigan. Dr. Bhise has taught many graduate courses over the past 45 years at the University of Michigan-Dearborn.
Autor*in
University of Michigan - Dearborn, USA
Part I: Automotive Product Development Process. 1. Introduction: Automotive Product Development. 2. Steps and Iterations Involved in the Automotive Product Development. 3. Customer Needs, Business Needs, and Government Requirements. 4. Vehicle Types and Body Style. 5. Role of Benchmarking and Target Setting. 6. Business Plan Development and Getting Management Approval. 7. New Technologies, Vehicle Features, and Technology Development Plan. 8. Relation of Vehicle Attributes to Vehicle Systems. 9. Understanding Interfaces between Vehicle Systems. 10. Cascading Vehicle Attribute Requirements into Vehicle Systems. 11. Development of Vehicle Concepts. 12. Selecting a Vehicle Concept. 13. Detailed Engineering Design During Automotive Product Development. 14. Design for Manufacturing and Assembly. 15. Vehicle Validation. 16. Managing Vehicle Development Programs. 17. Customer Feedback, Product Quality and Product Liability. 18. Creating a Brochure and a Website for the Vehicle. Part II: Tools Used in the Automotive Design Process. 19. Toolbox For Automotive Product Development. 20. Decision-Making Tools. 21. Product Planning Tools. 22. Financial Analysis in Automotive Programs. 23. Computer-Aided Technologies. 24. Vehicle Package Engineering Tools. 25. Vehicle Evaluation Methods. Part III: Examples and Illustrations. 26. Applications of Tools. 27. Developing a Passenger Car: A Case Study. 28. Developing a Pick-up Truck: A Case Study. 29. Developing a Sports Utility Vehicle: A Case Study. Appendix 1: Benchmarking and Preliminary Design Specifications. Appendix 2: QFD, Requirements Cascade, and Interface Analysis for a Selected Vehicle System. Appendix 3: Business Plan Development. Appendix 4: Conceptual Design of the Proposed Vehicle and Technology Plan. Appendix 5: Systems Engineering Management Plan and Vehicle Brochure.
